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Alternative Pathways to Complexity focuses on the themes of architecture, economics, and power in the evolution of complex societies. Case studies from Mesoamerica, Asia, Africa, and Europe examine the relationship between political structures and economic configurations of ancient chiefdoms and states through a framework of comparative archaeology. A group of highly distinguished scholars takes up important issues, theories, and methods stemming from the nascent body of research on comparative archaeology to showcase and apply important theories of households, power, and how the development of complex societies can be extended and refined. Drawing on the archaeological, ethnohistorical, and ethnographic records, the chapters in this volume contain critical investigations on the role of collective action, economics, and corporate cognitive codes in structuring complex societies. Alternative Pathways to Complexity is an important addition to theoretical development and empirical research on Mesoamerica, the Old World, and cross-cultural studies. The theoretical implications addressed in the chapters will have broad appeal for scholars grappling with alternative pathways to complexity in other regions as well as those addressing diverse cross-cultural research. Contributors: Sarah B. Barber, Cynthia L. Bedell, Christopher S. Beekman, Frances F. Berdan, Tim Earle, Carol R. Ember, Gary M. Feinman, Arthur A. Joyce, Stephen A. Kowalewski, Lisa J. LeCount, Linda M. Nicholas, Peter N. Peregrine, Peter Robertshaw, Barbara L. Stark, T. L. Thurston, Deborah Winslow, Rita Wright
Alternative Pathways to Complexity focuses on the themes of architecture, economics, and power in the evolution of complex societies. Case studies examine the relationship between political structures and economic configurations of ancient chiefdoms and states through a framework of comparative archaeology.
The boundaries between simple and complicated, and complicated and complex system designations are fuzzy and debatable, even using quantitative measures of complexity. However, if you are a biomedical engineer, a biologist, physiologist, economist, politician, stock market speculator, or politician, you have encountered complex systems. Furthermore, your success depends on your ability to successfully interact with and manage a variety of complex systems. In order not to be blindsided by unexpected results, we need a systematic, comprehensive way of analyzing, modeling, and simulating complex systems to predict non-anticipated outcomes. In its engaging first chapters, the book introduces complex systems, Campbell's Law, and the Law of Unintended Consequences, and mathematics necessary for conversations in complex systems. Subsequent chapters illustrate concepts via commonly studied biological mechanisms. The final chapters focus on higher-level complexity problems, and introduce complexity in economic systems. Designed as a reference for biologists and biological engineers, Introduction to Complexity and Complex Systems lends itself to use in a classroom course to introduce advanced students studying biomedical engineering, biophysics, or physiology to complex systems. Engaging and illustrative, this book aids scientists and decision makers in managing biological complexity and complex systems.
What can you do with a degree in architecture? Where might it take you? What kind of challenges could you address? Architects After Architecture reframes architecture as a uniquely versatile way of acting on the world, far beyond that of designing buildings. In this volume, we meet forty practitioners through profiles, case studies, and interviews, who have used their architectural training in new and resourceful ways to tackle the climate crisis, work with refugees, advocate for diversity, start tech companies, become leading museum curators, tackle homelessness, draft public policy, become developers, design videogames, shape public discourse, and much more. Together, they describe a future of architecture that is diverse and engaged, expanding the limits of the discipline, and offering new paths forward in times of crisis. Whether you are an architecture student or a practicing architect considering a change, you’ll find this an encouraging and inspiring read. Please visit the Architects After Architecture website for more information, including future book launches and events: architectsafterarchitecture.com
To fully understand not only the past, but also the trajectories, of human societies, we need a more dynamic view of human social systems. Agent-based modeling (ABM), which can create fine-scale models of behavior over time and space, may reveal important, general patterns of human activity. Agent-Based Modeling for Archaeology is the first ABM textbook designed for researchers studying the human past. Appropriate for scholars from archaeology, the digital humanities, and other social sciences, this book offers novices and more experienced ABM researchers a modular approach to learning ABM and using it effectively. Readers will find the necessary background, discussion of modeling techniques and traps, references, and algorithms to use ABM in their own work. They will also find engaging examples of how other scholars have applied ABM, ranging from the study of the intercontinental migration pathways of early hominins, to the weather–crop–population cycles of the American Southwest, to the trade networks of Ancient Rome. This textbook provides the foundations needed to simulate the complexity of past human societies, offering researchers a richer understanding of the past—and likely future—of our species.
This book reintroduces an African perspective on archaeological theorizing about complex societies.
Contrary to the conventional wisdom held by many contemporaries in our time, the popularity of studying complexity is fast becoming a new fad in the intellectual scene. However, can the study of complex phenomena truly reveal recognizable patterns (with predictable outcomes) to enhance our understanding of reality, especially when it is embedded within the messy web of complexity? If so, what then are the limits? This book strives to demolish some of the myths surrounding the nature of complexity and, in the process, to provide an original theory to understand it in this world and beyond. It introduces the author's dialectic theory of complexity, together with the theoretical debate in the literature. It expounds on the concept of complexity from various perspectives, including chemistry, micro- and macro-physics, biology and psychology. It also examines the nature of complexity from societal and cultural perspectives.This book presents a broad view on the nature of complexity, adequately introducing the reader to this emerging field.
Issues of formation and evolution of the early (archaic) state continue to remain among those problems which have not found generally accepted solutions yet. New research shows more and more clearly that pathways to statehood and early state types were numerous. On the other hand, research has detected such directions of sociocultural evolution, which do not lead to state formation at all, whereas within certain evolutionary patterns transition to statehood takes place on levels of complexity far exceeding the ones indicated by conventional evolutionist schemes. Contributors to The Early State, Its Alternatives and Analogues represent both traditional and non-traditional points of view on evolution of statehood. However, the data presented in the volume seem to demonstrate in a fairly convincing manner a great diversity of pathways to statehood, as well as non-universality of transformation into states of complex and even supercomplex societies.
Rapid developments in molecular and systems biology techniques have allowed researchers to unravel many new mechanisms through which plant cells switch over to alternative respiratory pathways. This book is a unique compendium of how and why higher plants evolved alternative respiratory metabolism. It offers a comprehensive review of current research in the biochemistry, physiology, classification and regulation of plant alternative respiratory pathways, from alternative oxidase diversity to functional marker development. The resource provides a broad range of perspectives on the applications of plant respiratory physiology, and suggests brand new areas of research. Other key features: written by an international team of reputed plant physiologists, known for their pioneering contributions to the knowledge of regular and alternative respiratory metabolism in higher plants includes step-by-step protocols for key molecular and imaging techniques advises on regulatory options for managing crop yields, food quality and environment for crop improvement and enhanced food security covers special pathways which are of key relevance in agriculture, particularly in plant post-harvest commodities Primarily for plant physiologists and plant biologists, this authoritative compendium will also be of great value to postdoctoral researchers working on plant respiration, as well as to graduate and postgraduate students and university staff in Plant Science. It is a useful resource for corporate and private firms involved in developing functional markers for breeding programs and controlling respiration for the prevention of post-harvest losses in fruit, vegetables, cut flowers and tubers.
The Complexity Paradox proposes inventive, interdisciplinary approaches to maintaining health and managing and preventing disease. It examines life from the perspective of complexity, which acknowledges the limits of what we can know while helping us to understand life processes in new and extraordinary ways.